EP2699511B1 - Liquid dispensing appliance comprising a solid gas-adsorbent - Google Patents
Liquid dispensing appliance comprising a solid gas-adsorbent Download PDFInfo
- Publication number
- EP2699511B1 EP2699511B1 EP12717256.7A EP12717256A EP2699511B1 EP 2699511 B1 EP2699511 B1 EP 2699511B1 EP 12717256 A EP12717256 A EP 12717256A EP 2699511 B1 EP2699511 B1 EP 2699511B1
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- EP
- European Patent Office
- Prior art keywords
- container
- dispensing
- chamber
- air
- appliance
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B67—OPENING, CLOSING OR CLEANING BOTTLES, JARS OR SIMILAR CONTAINERS; LIQUID HANDLING
- B67D—DISPENSING, DELIVERING OR TRANSFERRING LIQUIDS, NOT OTHERWISE PROVIDED FOR
- B67D1/00—Apparatus or devices for dispensing beverages on draught
- B67D1/0001—Apparatus or devices for dispensing beverages on draught by squeezing collapsible or flexible storage containers
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B67—OPENING, CLOSING OR CLEANING BOTTLES, JARS OR SIMILAR CONTAINERS; LIQUID HANDLING
- B67D—DISPENSING, DELIVERING OR TRANSFERRING LIQUIDS, NOT OTHERWISE PROVIDED FOR
- B67D1/00—Apparatus or devices for dispensing beverages on draught
- B67D1/04—Apparatus utilising compressed air or other gas acting directly or indirectly on beverages in storage containers
- B67D1/0406—Apparatus utilising compressed air or other gas acting directly or indirectly on beverages in storage containers with means for carbonating the beverage, or for maintaining its carbonation
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B67—OPENING, CLOSING OR CLEANING BOTTLES, JARS OR SIMILAR CONTAINERS; LIQUID HANDLING
- B67D—DISPENSING, DELIVERING OR TRANSFERRING LIQUIDS, NOT OTHERWISE PROVIDED FOR
- B67D1/00—Apparatus or devices for dispensing beverages on draught
- B67D1/04—Apparatus utilising compressed air or other gas acting directly or indirectly on beverages in storage containers
- B67D1/0412—Apparatus utilising compressed air or other gas acting directly or indirectly on beverages in storage containers the whole dispensing unit being fixed to the container
- B67D1/0443—Apparatus utilising compressed air or other gas acting directly or indirectly on beverages in storage containers the whole dispensing unit being fixed to the container comprising a gas generator
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B67—OPENING, CLOSING OR CLEANING BOTTLES, JARS OR SIMILAR CONTAINERS; LIQUID HANDLING
- B67D—DISPENSING, DELIVERING OR TRANSFERRING LIQUIDS, NOT OTHERWISE PROVIDED FOR
- B67D1/00—Apparatus or devices for dispensing beverages on draught
- B67D1/04—Apparatus utilising compressed air or other gas acting directly or indirectly on beverages in storage containers
- B67D2001/0475—Type of gas or gas mixture used, other than pure CO2
- B67D2001/0487—Mixture of gases, e.g. N2 + CO2
- B67D2001/0493—Air
Definitions
- the present invention relates to pressure driven liquid dispensing devices, in particular for dispensing beverages, such as soft drinks and beer.
- a dispensing device comprising a chamber containing an adsorbent for storing a high amount of gas under moderate pressure which is cheap to use for the end user.
- the dispensing appliance can be used without any electrical power, which is ideal for outdoor uses such as in picnics, but also for storing and using it safely in a traditional fridge.
- Pressure driven dispensing appliances for dispensing a liquid such as a beverage, typically beer
- a pressurized gas such as carbon dioxide
- Dispensing of a liquid is then simply controlled by the actuation of a valve located on a dispensing duct to bring the liquid contained in the container in fluid communication with ambient.
- the pressurized gas is usually stored in a pressure vessel of varying sizes depending on the end application, keeping in mind that sufficient gas must be available to at least empty a full liquid container of its content.
- the gas content of a pressurized gas vessel depends on the capacity of the vessel, and on the pressure of the gas, which in turn depends on the wall thickness of the vessel.
- a large, separate pressurized gas bottle is used and each time connected to a new keg.
- the pressure vessel is usually integrated within the appliance body.
- adsorb gas usually carbon dioxide
- a solid substrate such as activated carbon, silica gel, zeolite, and the like.
- WO99/47451 discloses a device for storing and dispensing carbonated beverages such as beer comprising a compartment containing an amount of activated carbon fibres having a relatively large internal and external surface area, for adsorbing and/or absorbing therein and thereon a relatively large amount of CO 2 at an acceptable gas pressure.
- WO02/014210 , US4049158 , WO2009/142977 , US3096000 ; WO2006/086932 , WO2008/014210 and WO 2011/009154 disclose dispensing appliances storing propellent gases on various types of adsorbents. All the foregoing appliances have a drawback in common with most small size pressurized gas vessels, in that they are disposable and must be replaced with each new container, which increases substantially the cost of use of such appliances by the end-consumer.
- US20031 36261 suggests to re-fill the gas storage compartment with a tablet, pellet or a ball of condensed firm phase CO 2 (so-called-"dry ice”), which is not quite suitable for home applications.
- WO2005/070788A and WO2008/05321 5 disclose the use of a one-way valve to allow the introduction of carbon dioxide in to the solid/gas compartment prior to use, and during use of the system. This requires a source of pressurized CO 2 , which is normally available to the public only in pressurized bottles, which need be bought, stored, and refilled at specific places.
- the present invention proposes a solution for a liquid dispensing appliance requiring very little budget for the use thereof, other than the purchase of a new liquid container, which can dispense a liquid without need of any external electric power energy, so that it can be used outdoor, or stored in a fridge, without risk of short circuits due to condensation or a battery leaking onto food.
- the chamber may be detachable from the appliance so that air re-filling thereof can be carried out by simply detaching the chamber from the appliance and connecting it to an air compressor.
- the air compressor is preferably separate from the appliance, but for sake of compactness, it may be integrated in the appliance. Connection thereof to a source of electrical power, however, is required only upon re-filling of the chamber. In this case, the chamber needs not be detachable from the appliance.
- the solid adsorbent contained in the chamber should have a high affinity with nitrogen and/or oxygen, the two major components of air, forming about 99 wt.% of air.
- the adsorbent is preferably selected from the group of type 5A or type 1 3X or Li-containing zeolites, activated silica, activated carbon, and mixtures thereof.
- it comprises zeolite LiLSX zeolite.
- the chamber (30) is detachably coupled to the appliance at a location close to the tapping valve, preferably to the appliance lid, so that if the appliance is stored in a fridge, the chamber can easily be removed from the appliance without moving the whole system.
- the chamber (30) can be coupled directly to the corresponding air opening (15B) of the closure of the container. This embodiment could be cheaper, but has the inconvenience that each of the dispensing duct (10a) and air chamber (30) need be connected individually to the container.
- a container can be mounted in the receiving means of the dispensing appliance such that it can be connected to the dispensing means and to the connection means to the chamber.
- the container is a bag-in-container or a bladder-in-container.
- the container preferably contains a beverage, preferably a carbonated beverage, more preferably a beer.
- the means for dispensing the liquid out of said container and means for fluidly connecting said chamber with the interior of the container generally comprise corresponding tubes.
- the dispensing tube is generally provided with a valve for controlling the flow of liquid therethrough.
- One connecting end of each tube is connectable to corresponding openings provided on the closure of a container mounted in the dispensing appliance to bring them in fluid communication with the interior of said container.
- the connecting ends of each of the dispensing tube and gas tube may be mounted in a lid of the dispensing appliance. Upon closing the lid over the closure of a container mounted therein the tube ends are driven through the corresponding openings of the closure bringing the interior of said container in fluid communication with ambient and the chamber (30), respectively.
- the air tube too preferably comprises a valve between the two ends of the air tube (1 5A) thereof.
- Said valve is preferably a pinch valve comprising resilient means naturally biased for seal pinching a flexible portion of the air tube, and opening upon bringing the dispensing appliance into a dispensing position with a container mounted therein.
- the kit of parts of the present invention permits to use the dispensing appliance for dispensing a liquid, preferably a beverage, without the need of any electrical power, be it in the form of batteries or a connection to an electrical net.
- the dispensing unit can therefore be used outdoor, or stored in a fridge.
- the present invention also concerns a dispensing appliance as defined supra.
- the present invention also concerns a method for dispensing a liquid out of a container comprising the following steps:
- the injection of compressed air into the air chamber is preferably carried out with the latter being in fluid communication with the interior of the container.
- the present invention provides a pressure dispensing appliance capable of dispensing a liquid contained in a container without any source of electrical power. Furthermore, pressurized gas can be stored in sufficient amount to drive the dispensing of the whole liquid content of a container under limited pressure by use of an adsorbent.
- pressurized gas can be stored in sufficient amount to drive the dispensing of the whole liquid content of a container under limited pressure by use of an adsorbent.
- One great advantage of the present invention is that the chamber storing the gas needs not be changed after use, but on the contrary can be refilled very easily before loading a new container. This solution reduces considerably the use cost by the end user who needs not buy a pressurized gas container or an adsorbent chamber after each use.
- a pressure dispensing appliance according to the present invention comprises means (21) for receiving a container (1) containing a liquid to be dispensed.
- Receiving means (21) can be of any form suitable for receiving a container.
- the container (1) will comprise substantially cylindrical body and neck portions so that the receiving means (21) are illustrated in Figure 1 as stands with a half cylindrical cut-off section for receiving a portion of the body and neck.
- the receiving means (21) are illustrated in Figure 1 as stands with a half cylindrical cut-off section for receiving a portion of the body and neck.
- other geometries are possible and the present invention is not restricted by the geometry of the receiving means (21).
- a dispensing appliance as illustrated in Figure 1 wherein the container lies horizontally, is particularly suitable for being stored on a shelf of a conventional fridge.
- the dispensing appliance of the present invention also comprises means (10A) for dispensing the liquid out of said container (1) when mounted in the appliance.
- the dispensing means (10A) comprise a tube suitable for bringing in fluid communication the liquid contained in the container (1) with ambient.
- it comprises a valve allowing the opening, closing, and controlling of the flow of liquid through the tube.
- the valve is advantageously a pinch valve, as pinch valves do not get in contact with the liquid to be dispensed.
- Other valves are of course possible, but pinch valves are preferred.
- the tube may be straight between its two ends as schematically illustrated in Figure 1 , but it preferably has curves and/or cross-section variations in order to decrease the pressure difference between liquid and ambient as the liquid approaches the outlet as disclosed e.g. in WO2005/007559 .
- the inlet of the dispensing tube (10A) preferably comprises a hardened and/or sharp tip to allow the introduction thereof through a corresponding dispensing opening (10B) in the container.
- the The dispensing opening (10B) is located in the closure of the container as illustrated in Figures 1 and 2 .
- the dispensing appliance of the present invention also comprises an air chamber (30) containing a solid adsorbent (30A) capable of adsorbing and desorbing large quantities of air.
- a solid adsorbent (30A) capable of adsorbing and desorbing large quantities of air.
- Most gas/adsorbent systems used in conventional dispensing appliances are designed for adsorbing carbon dioxide as propellant.
- the present invention moves away from this trend, and aims at using air instead as propellant gas adsorbed in the chamber.
- Typical adsorbents particularly suitable for storing air are zeolites, in particular zeolites with a high affinity for nitrogen or oxygen, such as type 5A or type 13X or Li-containing zeolites, preferably, it comprises zeolite LiLSX,
- the adsorbent can be composed of a mixture of components, for example one of the foregoing zeolites admixed with activated silica, or activated carbon.
- the chamber may have rigid walls or, alternatively, flexible walls thus forming a pouch. It is preferred that the walls may resist high pressure differences between inside and outside the chamber (30) to increase the gas storage capacity of the chamber (30) at higher pressures.
- the pressure inside the chamber when it is saturated with air is preferably in the range of 2 and 10 bar with a corresponding increase of air content of at least two folds, preferably at least one order of magnitude higher than for a similar chamber absent the adsorbent (30A). It follows that a plastic chamber can be used instead of a metal high pressure container required for storing gas at a pressure of 100 bar.
- the chamber (30) can be fluidly connected by means (1 5A) with the interior of a container (1) mounted in the dispensing appliance.
- Air connecting means (15A) comprise a tube running from the interior of the chamber to the interior of the container.
- the outlet of pressurized air tube (15A) can be in fluid communication with the liquid contained in the container (1) provided contact with air is not detrimental to the stability of the liquid. It is preferred, however, to use as container (1) a bag-in-container, or a bladder-in-container.
- the liquid to be dispensed in a bag-in-container is contained in a flexible bag (1 B) contained in a rigid outer container (1A).
- Pressurized air is injected into the space (1C) comprised between the inner bag (1B) and outer container (1A), thus collapsing the bag and driving the flow of liquid contained therein out of the container (1).
- a bladder-in-container the liquid is contained in the space (1C) between a flexible inner bladder and an outer container, and pressurized air is injected into the bladder to blow it, so as to push the liquid out of the container. It is preferred in the present invention to use a bag-in-container as illustrated in Figure 1 and disclosed in EP2146832 , EP2148770 , WO2010/031764 , EP2152494 , EP2152486 , EP2148771 .
- the outlet of the air connecting tube (1 5A) is preferably hardened and/or sharp to allow introduction thereof through a corresponding air inlet (15B) in the container, preferably located in the closure (8) as illustrated in Figures 1 and 2 .
- the gist of the present invention is to use air as a propellant, and to use an air compressor which can be connected to the air chamber to refill the latter whenever the pressure in the container is too low.
- the chamber may be detachable from the appliance so that air re-filling thereof can be carried out by simply detaching the chamber from the appliance and connecting it to an air compressor without moving the whole appliance from, e.g., a fridge, where it is stored.
- the air compressor may be integrated in the appliance.
- the appliance When re-filling the chamber (30) with air is required, the appliance may be connected to a source of electrical power,to activate the air compressor. When this operation is completed, the compressor in the appliance can be unplugged from the electric source and used again.
- the container (1) to be mounted in the dispensing appliance comprises an air opening (1 5B) for receiving the outlet of the air tube (1 5A) connected to the air chamber (30) and a dispensing opening (10B) for dispensing the liquid out of the container, both openings being located in the closure (8).
- the inlet of dispensing tube (10A) and the outlet of the air tube (15A) are mounted in the lid of the dispensing appliance, the closing of which upon the closure (8) of a container mounted therein driving them through the corresponding openings (10B, 15B) of the closure bringing the interior of said container in fluid communication with ambient and the chamber (30), respectively.
- the lid may move linearly from an open position (cf.
- Figure 1(b) into its dispensing position (cf. Figure 1(c) ), or can be mounted on hinges to rotate from an open position to a dispensing position.
- the closing of the lid drives the ends of the two dispensing and air tubes (10A, 15A) into the corresponding dispensing and air opening (10B, 1 5B) provided in the closure (8) as illustrated in Figures 1 (c) and 2 .
- Closure (8) can be as depicted in Figure 2 , comprising a first dispensing opening (10B) and a second air opening (15A), separated from the former.
- the two openings must be compartmented as illustrated in the cross section of Figure 2(b) with the dispensing opening (10B) opening into the inner bag (1 B) containing the liquid and the air opening (1 5B) in the inter-layer space (1 C) comprised between inner bag and outer container.
- closures suitable for the present invention are disclosed e.g., in EP10168970 , EP09701637 , EP09702646 , EP09703041 .
- a valve (not shown) can be opened to bring the air chamber (30) in fluid communication with the interior of the container.
- the pressure drop thus created drives desorption of air from the adsorbent and the pressure in the container increases accordingly.
- a bag-in-container as illustrated in Figure 1 (c) the increased pressure in the space (1 C) between the inner and outer layers (1 A, 1B) squeezes the inner bag (1B) reducing the head space therein (compressing air or any gas contained in the head space) and pressurizing the liquid.
- the present invention is highly advantageous over prior art dispensing appliances as it did not require the replacement of the gas storage unit after use, be it a pressurized cartridge, or a chamber comprising gas adsorbed on a solid adsorbent.
- the present invention is also advantageous in that it does not require the use of any external electrical power for its use.
- some appliances do not comprise a pressure storage container, but are linked directly to a pump, such as e.g., in US2006/0138177 .
- the pump requires power to pressurize the interior of a container to drive the flow of liquid out threreof.
- the present dispensing appliance allows to reuse the air chamber (30) as often as desired, by refilling it with compressed air using a low-cost air compressor every time the amount of air in the chamber (30) becomes too low. This operation takes only a couple of minutes. The air compressor can then be disconnected, and no power is required for dispensing the liquid until a next air refill of the chamber (30) becomes necessary.
- a dispensing appliance according to the present invention therefore requires connecting means (30B) for connecting in fluid communication an air compressor with the interior of the chamber (30).
- Any type of connection can be used, provided it is reversible in that it can be connected and disconnected easily.
- a snap fit connection is suitable, as well as bayonet and screw types connections, and the like.
- a dispensing appliance and air compressor according to the present invention can be used as follows for dispensing a liquid contained in a container (1).
- the air compressor (29) In order to increase the amount of air introduced into the container by the air compressor (29) it is possible to pump air into the air chamber (30) while it is in fluid communication with the interior of a container (1) in order to already increase the pressure therein prior to the first use of the dispenser; the first dispensing can therefore be driven by the air pressure in the container prior to any desorbing of air from the adsorbent.
- the air tube (15A) may comprise at least a flexible portion, provided with a pinch valve that squeezes in a closed position the tube when the lid is an open position (as in Figure 1 (b) , the pinch valve is not shown), and the pinch valve releases the pressure on the tube to open it when the lid is in dispensing position.
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- Containers And Packaging Bodies Having A Special Means To Remove Contents (AREA)
- Packages (AREA)
- Devices For Dispensing Beverages (AREA)
- Filling Or Discharging Of Gas Storage Vessels (AREA)
- Jet Pumps And Other Pumps (AREA)
- Loading And Unloading Of Fuel Tanks Or Ships (AREA)
- Feeding, Discharge, Calcimining, Fusing, And Gas-Generation Devices (AREA)
- Filling Of Jars Or Cans And Processes For Cleaning And Sealing Jars (AREA)
- Photographic Developing Apparatuses (AREA)
Description
- The present invention relates to pressure driven liquid dispensing devices, in particular for dispensing beverages, such as soft drinks and beer. In particular, it concerns a dispensing device comprising a chamber containing an adsorbent for storing a high amount of gas under moderate pressure which is cheap to use for the end user. The dispensing appliance can be used without any electrical power, which is ideal for outdoor uses such as in picnics, but also for storing and using it safely in a traditional fridge.
- Pressure driven dispensing appliances for dispensing a liquid, such as a beverage, typically beer, have long been known in the art. A pressurized gas, such as carbon dioxide, is injected into the container containing the liquid to be dispensed in order to increase the pressure in the vessel with respect to ambient. Dispensing of a liquid is then simply controlled by the actuation of a valve located on a dispensing duct to bring the liquid contained in the container in fluid communication with ambient. The pressurized gas is usually stored in a pressure vessel of varying sizes depending on the end application, keeping in mind that sufficient gas must be available to at least empty a full liquid container of its content. The gas content of a pressurized gas vessel depends on the capacity of the vessel, and on the pressure of the gas, which in turn depends on the wall thickness of the vessel. For high capacity kegs of 10 litres and more as are used in pubs, a large, separate pressurized gas bottle is used and each time connected to a new keg. On the other hand, for home appliances of lower capacity of about 3 to 10 litres as are becoming more and more appreciated by the consumers, the pressure vessel is usually integrated within the appliance body. For containers of relatively small capacity, it is quite easy to fit a relatively small gas cartridge as disclosed e.g., in
EP149352 - In order to reduce the size of the gas storing vessel for a given amount of gas, it has been proposed to adsorb gas, usually carbon dioxide, on a solid substrate such as activated carbon, silica gel, zeolite, and the like.
WO99/47451 WO02/014210 US4049158 ,WO2009/142977 ,US3096000 ;WO2006/086932 ,WO2008/014210 andWO 2011/009154 disclose dispensing appliances storing propellent gases on various types of adsorbents. All the foregoing appliances have a drawback in common with most small size pressurized gas vessels, in that they are disposable and must be replaced with each new container, which increases substantially the cost of use of such appliances by the end-consumer. -
US20031 36261 suggests to re-fill the gas storage compartment with a tablet, pellet or a ball of condensed firm phase CO2 (so-called-"dry ice"), which is not quite suitable for home applications.WO2005/070788A andWO2008/05321 5 disclose the use of a one-way valve to allow the introduction of carbon dioxide in to the solid/gas compartment prior to use, and during use of the system. This requires a source of pressurized CO2, which is normally available to the public only in pressurized bottles, which need be bought, stored, and refilled at specific places. - The present invention proposes a solution for a liquid dispensing appliance requiring very little budget for the use thereof, other than the purchase of a new liquid container, which can dispense a liquid without need of any external electric power energy, so that it can be used outdoor, or stored in a fridge, without risk of short circuits due to condensation or a battery leaking onto food. These and other advantages of the present invention are described in the following sections.
- The present invention is defined in the appended independent claims. Preferred embodiments are defined in the dependent claims. In particular, the present invention concerns a kit of parts comprising:
- (a) A pressure driven dispensing appliance comprising:
- Means for receiving a container containing a liquid to be dispensed:
- Means for dispensing the liquid out of said container when mounted in the appliance;
- A chamber containing a solid adsorbent suitable for adsorbing air;
- Means for fluidly connecting said chamber with the interior of the container when mounted in the appliance; and
- (b) An air compressor connectable to said chamber.
- The chamber may be detachable from the appliance so that air re-filling thereof can be carried out by simply detaching the chamber from the appliance and connecting it to an air compressor. The air compressor is preferably separate from the appliance, but for sake of compactness, it may be integrated in the appliance. Connection thereof to a source of electrical power, however, is required only upon re-filling of the chamber. In this case, the chamber needs not be detachable from the appliance. The solid adsorbent contained in the chamber should have a high affinity with nitrogen and/or oxygen, the two major components of air, forming about 99 wt.% of air. In particular, the adsorbent is preferably selected from the group of type 5A or type 1 3X or Li-containing zeolites, activated silica, activated carbon, and mixtures thereof. In a preferred embodiment, it comprises zeolite LiLSX zeolite.
- In a preferred embodiment, the chamber (30) is detachably coupled to the appliance at a location close to the tapping valve, preferably to the appliance lid, so that if the appliance is stored in a fridge, the chamber can easily be removed from the appliance without moving the whole system. In another embodiment, the chamber (30) can be coupled directly to the corresponding air opening (15B) of the closure of the container. This embodiment could be cheaper, but has the inconvenience that each of the dispensing duct (10a) and air chamber (30) need be connected individually to the container.
- A container can be mounted in the receiving means of the dispensing appliance such that it can be connected to the dispensing means and to the connection means to the chamber. In a preferred embodiment, the container is a bag-in-container or a bladder-in-container. The container preferably contains a beverage, preferably a carbonated beverage, more preferably a beer.
- The means for dispensing the liquid out of said container and means for fluidly connecting said chamber with the interior of the container generally comprise corresponding tubes. In particular the dispensing tube is generally provided with a valve for controlling the flow of liquid therethrough. One connecting end of each tube is connectable to corresponding openings provided on the closure of a container mounted in the dispensing appliance to bring them in fluid communication with the interior of said container. In particular, the connecting ends of each of the dispensing tube and gas tube may be mounted in a lid of the dispensing appliance. Upon closing the lid over the closure of a container mounted therein the tube ends are driven through the corresponding openings of the closure bringing the interior of said container in fluid communication with ambient and the chamber (30), respectively. The air tube too preferably comprises a valve between the two ends of the air tube (1 5A) thereof. Said valve is preferably a pinch valve comprising resilient means naturally biased for seal pinching a flexible portion of the air tube, and opening upon bringing the dispensing appliance into a dispensing position with a container mounted therein.
- The kit of parts of the present invention permits to use the dispensing appliance for dispensing a liquid, preferably a beverage, without the need of any electrical power, be it in the form of batteries or a connection to an electrical net. The dispensing unit can therefore be used outdoor, or stored in a fridge. The present invention also concerns a dispensing appliance as defined supra.
- The present invention also concerns a method for dispensing a liquid out of a container comprising the following steps:
- (a) providing a liquid dispensing appliance as discussed supra;
- (b) connecting an air compressor to the chamber containing solid adsorbent and injecting compressed air therein, until a desired amount of air is stored in the chamber, after which said air compressor is disconnected;
- (c) Mounting a container into the receiving means of the dispensing appliance;
- (d) Fluidly connecting the dispensing means with the liquid contained in the container;
- (e) Fluidly connecting the chamber (30) with the interior of the container to increase the air pressure in said container to a desired level; and
- (f) Dispensing liquid out of the container through the dispensing means (10A) driven by the air pressure obtained in the previous step.
- The injection of compressed air into the air chamber is preferably carried out with the latter being in fluid communication with the interior of the container.
- The present invention provides a pressure dispensing appliance capable of dispensing a liquid contained in a container without any source of electrical power. Furthermore, pressurized gas can be stored in sufficient amount to drive the dispensing of the whole liquid content of a container under limited pressure by use of an adsorbent. One great advantage of the present invention is that the chamber storing the gas needs not be changed after use, but on the contrary can be refilled very easily before loading a new container. This solution reduces considerably the use cost by the end user who needs not buy a pressurized gas container or an adsorbent chamber after each use.
- For a fuller understanding of the nature of the present invention, reference is made to the following detailed description taken in conjunction with the accompanying drawings in which:
-
Figure 1 : shows a dispensing appliance and air compressor according to the present invention with a container mounted therein, with the different stages for the use therof. -
Figure 2 : shows a closure comprising first and second openings for receiving dispensing means and gas connection means of a dispensing appliance according to the present invention. - As illustrated in
Figure 1 , a pressure dispensing appliance according to the present invention comprises means (21) for receiving a container (1) containing a liquid to be dispensed. - Receiving means (21) can be of any form suitable for receiving a container. Generally the container (1) will comprise substantially cylindrical body and neck portions so that the receiving means (21) are illustrated in
Figure 1 as stands with a half cylindrical cut-off section for receiving a portion of the body and neck. Of course, other geometries are possible and the present invention is not restricted by the geometry of the receiving means (21). It should be noted that while the container illustrated inFigure 1 lies horizontally, it could also be standing with the opening facing up. A dispensing appliance as illustrated inFigure 1 , wherein the container lies horizontally, is particularly suitable for being stored on a shelf of a conventional fridge. - The dispensing appliance of the present invention also comprises means (10A) for dispensing the liquid out of said container (1) when mounted in the appliance. Generally speaking, the dispensing means (10A) comprise a tube suitable for bringing in fluid communication the liquid contained in the container (1) with ambient. In a preferred embodiment it comprises a valve allowing the opening, closing, and controlling of the flow of liquid through the tube. If the tube is flexible, the valve is advantageously a pinch valve, as pinch valves do not get in contact with the liquid to be dispensed. Other valves are of course possible, but pinch valves are preferred. The tube may be straight between its two ends as schematically illustrated in
Figure 1 , but it preferably has curves and/or cross-section variations in order to decrease the pressure difference between liquid and ambient as the liquid approaches the outlet as disclosed e.g. inWO2005/007559 . The inlet of the dispensing tube (10A) preferably comprises a hardened and/or sharp tip to allow the introduction thereof through a corresponding dispensing opening (10B) in the container. Preferably, the The dispensing opening (10B) is located in the closure of the container as illustrated inFigures 1 and2 . - The dispensing appliance of the present invention also comprises an air chamber (30) containing a solid adsorbent (30A) capable of adsorbing and desorbing large quantities of air. Most gas/adsorbent systems used in conventional dispensing appliances are designed for adsorbing carbon dioxide as propellant. The present invention moves away from this trend, and aims at using air instead as propellant gas adsorbed in the chamber. Typical adsorbents particularly suitable for storing air are zeolites, in particular zeolites with a high affinity for nitrogen or oxygen, such as type 5A or type 13X or Li-containing zeolites, preferably, it comprises zeolite LiLSX, The adsorbent can be composed of a mixture of components, for example one of the foregoing zeolites admixed with activated silica, or activated carbon. The chamber may have rigid walls or, alternatively, flexible walls thus forming a pouch. It is preferred that the walls may resist high pressure differences between inside and outside the chamber (30) to increase the gas storage capacity of the chamber (30) at higher pressures. The pressure inside the chamber when it is saturated with air is preferably in the range of 2 and 10 bar with a corresponding increase of air content of at least two folds, preferably at least one order of magnitude higher than for a similar chamber absent the adsorbent (30A). It follows that a plastic chamber can be used instead of a metal high pressure container required for storing gas at a pressure of 100 bar.
- The chamber (30) can be fluidly connected by means (1 5A) with the interior of a container (1) mounted in the dispensing appliance. Air connecting means (15A) comprise a tube running from the interior of the chamber to the interior of the container. The outlet of pressurized air tube (15A) can be in fluid communication with the liquid contained in the container (1) provided contact with air is not detrimental to the stability of the liquid. It is preferred, however, to use as container (1) a bag-in-container, or a bladder-in-container. The liquid to be dispensed in a bag-in-container is contained in a flexible bag (1 B) contained in a rigid outer container (1A). Pressurized air is injected into the space (1C) comprised between the inner bag (1B) and outer container (1A), thus collapsing the bag and driving the flow of liquid contained therein out of the container (1). In a bladder-in-container, the liquid is contained in the space (1C) between a flexible inner bladder and an outer container, and pressurized air is injected into the bladder to blow it, so as to push the liquid out of the container. It is preferred in the present invention to use a bag-in-container as illustrated in
Figure 1 and disclosed inEP2146832 ,EP2148770 ,WO2010/031764 ,EP2152494 ,EP2152486 ,EP2148771 . - Again, the outlet of the air connecting tube (1 5A) is preferably hardened and/or sharp to allow introduction thereof through a corresponding air inlet (15B) in the container, preferably located in the closure (8) as illustrated in
Figures 1 and2 . - The gist of the present invention is to use air as a propellant, and to use an air compressor which can be connected to the air chamber to refill the latter whenever the pressure in the container is too low. The chamber may be detachable from the appliance so that air re-filling thereof can be carried out by simply detaching the chamber from the appliance and connecting it to an air compressor without moving the whole appliance from, e.g., a fridge, where it is stored. In another embodiment, the air compressor may be integrated in the appliance. When re-filling the chamber (30) with air is required, the appliance may be connected to a source of electrical power,to activate the air compressor. When this operation is completed, the compressor in the appliance can be unplugged from the electric source and used again.
- It is not necessary with a dispensing appliance according to the present invention to buy an expensive new gas pressure cartridge or adsorbent chamber after each container has been emptied, nor to store a large pressurized CO2 bottle to be refilled regularly at specific places. All that is required here is to purchase a dispensing appliance and an air compressor, readily available at very low cost and taking little room, and every time a container is being emptied, it suffices to connect the air compressor to the appliance, and after a couple of minutes, the air chamber (30) is refilled and ready for the dispensing of a new container (1).
- As illustrated in
Figures 1 and2 , in a preferred embodiment the container (1) to be mounted in the dispensing appliance comprises an air opening (1 5B) for receiving the outlet of the air tube (1 5A) connected to the air chamber (30) and a dispensing opening (10B) for dispensing the liquid out of the container, both openings being located in the closure (8). In a preferred embodiment, the inlet of dispensing tube (10A) and the outlet of the air tube (15A) are mounted in the lid of the dispensing appliance, the closing of which upon the closure (8) of a container mounted therein driving them through the corresponding openings (10B, 15B) of the closure bringing the interior of said container in fluid communication with ambient and the chamber (30), respectively. The lid may move linearly from an open position (cf.Figure 1(b) ) into its dispensing position (cf.Figure 1(c) ), or can be mounted on hinges to rotate from an open position to a dispensing position. The closing of the lid drives the ends of the two dispensing and air tubes (10A, 15A) into the corresponding dispensing and air opening (10B, 1 5B) provided in the closure (8) as illustrated inFigures 1 (c) and 2 . - Closure (8) can be as depicted in
Figure 2 , comprising a first dispensing opening (10B) and a second air opening (15A), separated from the former. For bag-in-containers, the two openings must be compartmented as illustrated in the cross section ofFigure 2(b) with the dispensing opening (10B) opening into the inner bag (1 B) containing the liquid and the air opening (1 5B) in the inter-layer space (1 C) comprised between inner bag and outer container. Examples of closures suitable for the present invention are disclosed e.g., inEP10168970 EP09701637 EP09702646 EP09703041 - As the air tube (1 5A) is introduced into the container (1) -preferably in the space (1C) between inner and outer containers (1A, 1 B) of a bag-in-container- a valve (not shown) can be opened to bring the air chamber (30) in fluid communication with the interior of the container. The pressure drop thus created drives desorption of air from the adsorbent and the pressure in the container increases accordingly. In case of a bag-in-container, as illustrated in
Figure 1 (c) the increased pressure in the space (1 C) between the inner and outer layers (1 A, 1B) squeezes the inner bag (1B) reducing the head space therein (compressing air or any gas contained in the head space) and pressurizing the liquid. As the valve (35) on the dispensing tube (10A) is opened, liquid will flow out through the dispensing tube (10A) increasing the volume of the inter-layer space (1 C), and thus reducing the pressure in the air chamber (30). This pressure drop in turn drives the desorption of additional air from the adsorbent (30A) stored in the air chamber (30) and rises the pressure in the container back to a desired value. Such system is particularly suitable for dispensing beverages, in particular carbonated beverages, more particularly beers. The use of a bag-in-container is much preferred as it shields the liquid contained in the inner bag (1 B) from any contact with the pressurized air contained in the inter-layer space (1 C). For liquids which are not sensitive to air oxidation, however, a normal container can be used. The principle of pressure regulated adsorption/desorption of a gas on and off a solid adsorbent is well known in the art and reference is made to the prior art cited in the Background Art, and to general textbooks for additional information on the topic. - It has been shown that the present invention is highly advantageous over prior art dispensing appliances as it did not require the replacement of the gas storage unit after use, be it a pressurized cartridge, or a chamber comprising gas adsorbed on a solid adsorbent. The present invention is also advantageous in that it does not require the use of any external electrical power for its use. Indeed, some appliances do not comprise a pressure storage container, but are linked directly to a pump, such as e.g., in
US2006/0138177 . The pump, however, requires power to pressurize the interior of a container to drive the flow of liquid out threreof. It can therefore not be used outdoor, unless batteries are used, and it cannot be stored in a fridge, lest the condensation would damage the electrical circuit, or batteries may leak onto the food stored in the fridge. The present dispensing appliance, allows to reuse the air chamber (30) as often as desired, by refilling it with compressed air using a low-cost air compressor every time the amount of air in the chamber (30) becomes too low. This operation takes only a couple of minutes. The air compressor can then be disconnected, and no power is required for dispensing the liquid until a next air refill of the chamber (30) becomes necessary. - A dispensing appliance according to the present invention therefore requires connecting means (30B) for connecting in fluid communication an air compressor with the interior of the chamber (30). Any type of connection can be used, provided it is reversible in that it can be connected and disconnected easily. A snap fit connection is suitable, as well as bayonet and screw types connections, and the like.
- A dispensing appliance and air compressor according to the present invention can be used as follows for dispensing a liquid contained in a container (1).
- connecting the air compressor (29) to the chamber (30) containing solid adsorbent (30A) and injecting compressed air therein, until a desired amount of air is stored in the chamber, after which said air compressor is disconnected;
- Mounting a container (1) into the receiving means (21) of the dispensing appliance (2);
- Fluidly connecting the dispensing means (l0A) with the liquid contained in the container (1);
- Fluidly connecting the chamber (30) with the interior of the container (1). If the air connecting tube (15A) is closed by a valve, opening the valve to increase the air pressure in the container to a desired level. If the container is a bag-in-container, the air connecting tube (15A) shall be brought into fluid communication with the inter-layer space (1 C) comprised between the inner and outer layers (1A, 1B) of the container (1). If a bladder in container is used, the air tube (1 5A) shall be connected to the interior of the bladder.
- Dispensing liquid out of the container (1) through the dispensing means (10A) driven by the air pressure obtained in the previous step.
- In order to increase the amount of air introduced into the container by the air compressor (29) it is possible to pump air into the air chamber (30) while it is in fluid communication with the interior of a container (1) in order to already increase the pressure therein prior to the first use of the dispenser; the first dispensing can therefore be driven by the air pressure in the container prior to any desorbing of air from the adsorbent.
- For safety and comfort of use, the air tube (15A) may comprise at least a flexible portion, provided with a pinch valve that squeezes in a closed position the tube when the lid is an open position (as in
Figure 1 (b) , the pinch valve is not shown), and the pinch valve releases the pressure on the tube to open it when the lid is in dispensing position.
Claims (14)
- Kit of parts for dispensing a liquid contained in a container, comprising:(a) A pressure driven dispensing appliance (2) comprising:• Means (21) for receiving a container (1) containing a liquid to be dispensed:• Means (10A) for dispensing the liquid out of said container (1) when mounted in the appliance;• A chamber (30) containing a solid adsorbent (30A) suitable for adsorbing air;• Means (15A) for fluidly connecting said chamber (30) with the interior of the container (1) when mounted in the appliance; and(b) An air compressor (29) connectable to said chamber (30).
- Kit of parts according to the preceding claim, wherein the chamber (30) is detachable from the appliance.
- Kit of parts according to claim 1 or 2, wherein the solid adsorbent (30A) has a high affinity for nitrogen and/or oxygen and is preferably selected from the group of activated silica, activated carbon, or zeolites with a high affinity for nitrogen and/or oxygen, particularly type 5A, 13X, LiX, LiLSX and other Li-containing zeolites and mixtures thereof, and preferably comprises zeolite LiLSX.
- Kit of parts according to any of the preceding claims, wherein a container (1) is mounted in the receiving means (21) of the dispensing appliance, said container (1) being suitable for being connected to the dispensing means (10A) and to the connection means (15A) to the chamber (30),
- Kit of parts according to the preceding claim, wherein the container is a bag-in-container or a bladder-in-container.
- Kit of parts according to claim 4 or 5, wherein the container contains a beverage, preferably a carbonated beverage, more preferably a beer.
- Kit of parts according to any of the preceding claims, wherein the pressure driven dispensing appliance (2) is suitable for receiving a container of the type comprising a closure (8) provided with a first and second openings (10B, 15B) and wherein the means (10A) for dispensing the liquid out of said container and means (1 5A) for fluidly connecting said chamber (30) with the interior of the container (1) comprise corresponding tubes (10A, 15A), one connecting end of each tube being connectable to said corresponding openings (10B, 15B) when a container is mounted in the dispensing appliance to bring them in fluid communication with the interior of said container.
- Kit of parts according to the preceding claim, wherein the connecting ends of each of the dispensing tube (10A) and gas tube (15A) are mounted in the lid of the dispensing appliance, the closing of which upon the closure (8) of a container mounted therein driving them through the corresponding openings (10B, 15B) of the closure bringing the interior of said container in fluid communication with ambient and the chamber (30), respectively.
- Kit of parts according to the preceding claim, wherein a valve (35) is provided between the two ends of the dispensing tube (10A).
- Kit of parts according to the preceding claim, wherein a valve is provided between the two ends of the air tube (15A), said valve being preferably a pinch valve comprising resilient means naturally biased for seal pinching a flexible portion of the air tube (15A), and opening upon bringing the dispensing appliance into a dispensing position with a container mounted therein.
- Kit of parts according to any of the preceding claims, characterized in that, when sufficient gas is adsorbed on the adsorbent contained in the chamber (30), the dispensing appliance is suitable for dispensing a beverage contained in a container mounted therein without the supply of any electrical energy and, in particular, requiring no battery nor connection to the electrical net.
- Method for dispensing a liquid out of a container (1) comprising the following steps:(a) providing a liquid dispensing appliance (2) as defined in claim 1(a);(b) connecting an air compressor (29) to the chamber (30) containing solid adsorbent (30A) and injecting compressed air therein, until a desired amount of air is stored in the chamber, after which said air compressor is disconnected;(c) Mounting a container (1) into the receiving means (21) of the dispensing appliance (2);(d) Fluidly connecting the dispensing means (10A) with the liquid contained in the container (1);(e) Fluidly connecting the chamber (30) with the interior of the container (1) to increase the air pressure in said container to a desired level; and(f) Dispensing liquid out of the container (1) through the dispensing means (10A) driven by the air pressure obtained in the previous step.
- Method according to the preceding claim, wherein compressed air is injected into the air chamber (30) when the latter is in fluid communication with the interior of the container (1).
- Method according to claim 13 or 14, wherein a dispensing appliance as defined in any of claims 1 to 11 is used.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
EP12717256.7A EP2699511B1 (en) | 2011-04-18 | 2012-04-17 | Liquid dispensing appliance comprising a solid gas-adsorbent |
Applications Claiming Priority (3)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
EP11162787A EP2514711A1 (en) | 2011-04-18 | 2011-04-18 | Liquid dispensing appliance comprising a solid gas-adsorbent |
PCT/EP2012/057005 WO2012143352A1 (en) | 2011-04-18 | 2012-04-17 | Liquid dispensing appliance comprising a solid gas-adsorbent |
EP12717256.7A EP2699511B1 (en) | 2011-04-18 | 2012-04-17 | Liquid dispensing appliance comprising a solid gas-adsorbent |
Publications (2)
Publication Number | Publication Date |
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EP2699511A1 EP2699511A1 (en) | 2014-02-26 |
EP2699511B1 true EP2699511B1 (en) | 2016-08-24 |
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Family Applications (2)
Application Number | Title | Priority Date | Filing Date |
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EP11162787A Withdrawn EP2514711A1 (en) | 2011-04-18 | 2011-04-18 | Liquid dispensing appliance comprising a solid gas-adsorbent |
EP12717256.7A Not-in-force EP2699511B1 (en) | 2011-04-18 | 2012-04-17 | Liquid dispensing appliance comprising a solid gas-adsorbent |
Family Applications Before (1)
Application Number | Title | Priority Date | Filing Date |
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EP11162787A Withdrawn EP2514711A1 (en) | 2011-04-18 | 2011-04-18 | Liquid dispensing appliance comprising a solid gas-adsorbent |
Country Status (12)
Country | Link |
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US (1) | US9604835B2 (en) |
EP (2) | EP2514711A1 (en) |
CN (1) | CN103562123B (en) |
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BR (1) | BR112013026803B1 (en) |
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RU (1) | RU2604010C2 (en) |
UA (1) | UA113168C2 (en) |
WO (1) | WO2012143352A1 (en) |
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-
2011
- 2011-04-18 EP EP11162787A patent/EP2514711A1/en not_active Withdrawn
-
2012
- 2012-04-17 CA CA2833429A patent/CA2833429C/en not_active Expired - Fee Related
- 2012-04-17 UA UAA201312354A patent/UA113168C2/en unknown
- 2012-04-17 US US14/112,910 patent/US9604835B2/en active Active
- 2012-04-17 ES ES12717256.7T patent/ES2599460T3/en active Active
- 2012-04-17 DK DK12717256.7T patent/DK2699511T3/en active
- 2012-04-17 WO PCT/EP2012/057005 patent/WO2012143352A1/en active Application Filing
- 2012-04-17 CN CN201280021602.4A patent/CN103562123B/en not_active Expired - Fee Related
- 2012-04-17 BR BR112013026803-4A patent/BR112013026803B1/en not_active IP Right Cessation
- 2012-04-17 EP EP12717256.7A patent/EP2699511B1/en not_active Not-in-force
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- 2012-04-17 RU RU2013147914/12A patent/RU2604010C2/en active
- 2012-04-18 AR ARP120101323A patent/AR086107A1/en active IP Right Grant
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MX2013012134A (en) | 2014-07-09 |
BR112013026803A2 (en) | 2017-01-10 |
US20140034667A1 (en) | 2014-02-06 |
EP2699511A1 (en) | 2014-02-26 |
DK2699511T3 (en) | 2016-11-21 |
CN103562123A (en) | 2014-02-05 |
MX354562B (en) | 2018-03-08 |
ES2599460T3 (en) | 2017-02-01 |
WO2012143352A1 (en) | 2012-10-26 |
CN103562123B (en) | 2017-03-08 |
AR086107A1 (en) | 2013-11-20 |
BR112013026803B1 (en) | 2020-07-28 |
US9604835B2 (en) | 2017-03-28 |
RU2604010C2 (en) | 2016-12-10 |
CA2833429C (en) | 2020-08-11 |
RU2013147914A (en) | 2015-05-27 |
CA2833429A1 (en) | 2012-10-26 |
UA113168C2 (en) | 2016-12-26 |
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